(i)Write down the decimal expansions of those rational num- bers in Question 1 above which have terminating decimal expansions. `13/3125` (ii) Write down the decimal expansions of those rational num- bers in Question 1 above which have terminating decimal expansions. `17/8` (iii)Write down the decimal expansions of those rational num- bers in Question 1 above which have terminating decimal expansions. `64/455` (iv)Write down the decimal expansions of those rational num- bers in Question 1 above which have terminating decimal expansions. `15/1600` (v)Write down the decimal expansions of those rational num- bers in Question 1 above which have terminating decimal expansions. `29/343` (vi)Write down the decimal expansions of those rational num- bers in Question 1 above which have terminating decimal expansions. `23/(2^(3)5^2)` (vii)Write down the decimal expansions of those rational num- bers in Question 1 above which have terminating decimal expansions. `129/(2^(2)5^(7)7^(5))` (viii) Write down the decimal expansions of those rational num- bers in Question 1 above which (ix)Write down the decimal expansions of those rational num- bers in Question 1 above which have terminating decimal expansions. `35/50` (x)Write down the decimal expansions of those rational num- bers in Question 1 above which have terminating decimal expansions. `35/50`
Write down the decimal expansions of 23/(2^(3) times 5^(2))
Write the decimal expansion of (241)/(2^(3)xx5^(2))
Write the condition to be satisfied by q so that the rational number (p)/(q) has a terminating decimal expansion.
Given that the decimal expansion of irrational numbers is non-terminating, non-recurring , and sqrt(17) is irrational, what can we conclude about the decimal expansion of sqrt(17) ?
